Difference Between I3 I5 And I7 Processors Pdf

  • and pdf
  • Sunday, May 30, 2021 7:15:25 PM
  • 0 comment
difference between i3 i5 and i7 processors pdf

File Name: difference between i3 i5 and i7 processors .zip
Size: 28832Kb
Published: 30.05.2021

Ever wondered which chipset is best for your requirements? Which is more compatible with your needs?

Intel Core i3, Core i5, and Core i7 CPUs have been around for a few years now, but some buyers still get stumped whenever they attempt to build their own systems and are forced to choose among the three. With the most recent 10 th Generation Ice Lake architecture now available in notebooks that are on store shelves and 'Rocket Lake' CPUs expected to follow in , history looks set to repeat itself. There's likely to be a whole new wave of consumers asking the same kind of questions that get raised every time Intel refreshed their CPU lineup. Does an Intel Core 5 have a 5-core processor?

What is the difference between Intel Core™ i3, i5, i7 and i9 processors?

Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.

See our Privacy Policy and User Agreement for details. Published on Dec 5, SlideShare Explore Search You. Submit Search. Home Explore. Successfully reported this slideshow. We use your LinkedIn profile and activity data to personalize ads and to show you more relevant ads.

You can change your ad preferences anytime. Difference between i3 and i5 and i7 and core 2 duo pdf. Upcoming SlideShare. Like this document? Why not share! Embed Size px. Start on. Show related SlideShares at end.

WordPress Shortcode. Full Name Comment goes here. Are you sure you want to Yes No. Mojtaba Rezaie. Hassan Khan. Lelena Abayneh. Aay Sahir. Alawi Mageed. Show More. No Downloads. Views Total views. Actions Shares. No notes for slide. Difference between i3 and i5 and i7 and core 2 duo pdf 1. With one core processor, u can do multitasking but it will slow down ur computer. Like with intel's dual core processor "Core 2 Duo" with speed of 2.

Intel's Core 2 Extreme processors are also quad processors but are specially produced for gaming rigs!! Intel Turbo Boost Technology 2. Whether the processor enters into and the amount of time the processor spends in the Intel Turbo Boost Technology 2.

Maximum turbo frequency indicates the highest possible frequency achievable when conditions allow the processor to enter turbo mode. Intel Turbo Boost Technology frequency varies depending on workload, hardware, software and overall system configuration. Due to varying power characteristics, some parts with Intel Turbo Boost Technology 2. Availability and frequency upside of Intel Turbo Boost Technology 2.

Note: Intel Turbo Boost Technology 2. What is workstation A workstation is a special computer designed for technical or scientific applications. Intended primarily to be used by one person at a time, they are commonly connected to a local area network and run multi-user operating systems.

The term workstation has also been used loosely to refer to everything from a mainframe computer terminal to a PC connected to a network, but the most common form refers to the group of hardware offered by several current and defunct companies such as Sun Microsystems, Silicon Graphics, Apollo Computer, DEC, HP and IBM which opened the door for the 3D graphics animation revolution of the late s.

Workstations offered higher performance than mainstream personal computers, especially with respect to CPU and graphics, memory capacity, and multitasking capability. Workstations were optimized for the visualization and manipulation of different types of complex data such as 3D 3. Typically, the form factor is that of a desktop computer, consist of a high resolution display, a keyboard and amouse at a minimum, but also offer multiple displays, graphics tablets, 3D mice devices for manipulating 3D objects and navigating scenes , etc.

Workstations were the first segment of the computer market to present advanced accessories and collaboration tools. What is Bit Slice Processor? Bit slicing is a technique for constructing a processor from modules of smaller bit width. Each of these components processes one bit field or "slice" of an operand. The grouped processing components would then have the capability to process the chosen full word-length of a particular software design. Bit slice processors usually consist of an arithmetic logic unit ALU of 1, 2, 4 or 8 bits and control lines including carry or overflow signals that are internal to the processor in non- bitsliced designs.

For example, two 4-bit ALUs could be arranged side by side, with control lines between them, to form an 8-bit,bit,bit words so the designer can add as many slices he wants to make it to manipulate longer words lengths. A microsequencer or Control ROM would be used to execute logic to provide data and control signals to regulate function of the component ALUs. Recall from earlier that a common way for many devices to communicate with one another is on a bus, and that a bus should only have one device writing to it, although it can have many devices reading from it.

Since many devices always produce output such as registers and these devices are hooked to a bus, we need a way to control what gets on the bus, and what doesn't. A tri state buffer is good for that. Here's an example: There are three devices, each of which output 32 bits. These devices have their outputs hooked to a 32 bit bus. We want to prevent more than one device from writing to the bus.

Ordinarily, these devices always generate output, so we're in trouble merely by attaching more than one device's output to the bus. As long as at most one of the following control bits, c0, c1, c2, is 1, the bus is fine. That is, the bus will not have two devices attempting to write to it at the same time. Alternative: Using a MUX Tri-state buffers are one way of preventing an output from making it to the bus. An alternate way is to use a MUX. For example, we might have a 32 bit, MUX.

The advantage of a MUX is that we're guaranteed only one device makes it to the bus. The drawback is that we might want no devices to make it to the bus. One solution is to add an enable input to a MUX. When the enable is active, the output is selected from one of the inputs.

When the enable is not active, then the output is Z. Summary A tri-state buffer is a device that allows you to control when an output signal makes it to the bus. When the tri-state buffer's control bit is active, the input of the device makes it to the output.

This is when the "valve" is open. When it's not active, the output of the device is Z, which is high-impedance or, equivalently, nothing. This is when the "valve" is closed, and no electrical signal is allowed to pass to the output. The "valve" analogy helps make it easy to understand the behavior of a tri-state buffer. It is named after the mathematician John Von Neumann. It is based on the concept of stored program control. In this architecture both the data and the program is stored in the same memory.

Interview Questions on Microprocessor Ans. Accumulator is an 8 bit register which stores data and performs arithmetic and logical operations. The result of the operation is stored in the accumulator. Interview Questions on Microprocessor 6. There are 5 different flags in microprocessor. Though the flag register is of 8 bit but 3 bits are not in use. Only 5 bits are used for the different flags. If sign bit is 1 then the sign flag is set to 1 and if the sign bit is zero then sign flag is reset to zero.

If the result of any arithmetic or logical operation is zero i. Else it is reset to 0. There are 6 general purpose registers in microprocessor. These are 8 bit registers and are used to store data temporarily during the execution of any program. These registers can also be used to store 16 bit data by using them in pairs i.

These pairs cannot be changed as B cannot pair with any other register other than C. And what is its use? Interview Sample paper question answer on Microprocessor. Placement Interview Sample paper question answer on Microprocessor Ans.

Comparison Charts for Intel® Core™ Desktop Processor Family

Every computer has a processor and the processor is the brain of the computer. Intel Core processors are among the best you can buy, but choosing which of the 3 i3, i5 and i7 different models best suits your needs can be confusing. Generally speaking a Core i3, i5 or i7 that has a newer architecture is faster than the older-architecture processor that it replaces. Different processor families have different characteristics that determine their levels of efficiency. The more cores there are, the more tasks known as threads can be served at the same time. But, Core i7 does not have seven cores nor does Core i3 have three cores. The numbers are simply indicative of their relative processing powers.

Although Intel's naming convention is generally a lot better and less confusing than it used to be, it can be difficult to work out exactly which processor suits your needs. If you're struggling to work out the differences between the Core i3, i5 and i7, don't worry, as we'll explain everything for you. First, it's important to explain about architecture and codenames. Every year, Intel releases a newer, faster range of processors. We're currently starting to see Devil's Canyon chips, a refresh of last year's Haswell. Before that we had Ivy Bridge and Sandy Bridge. Generally speaking a Core i3, i5 or i7 that has a newer architecture is faster than the older-architecture processor that it replaces.

Intel Core i3, i5 and i7 explained

Slideshare uses cookies to improve functionality and performance, and to provide you with relevant advertising. If you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.


It is responsible for executing computational tasks. It is a part of a CPU that receives instructions and performs actions and do the calculations. Core in a Processor is a set of instructions that allows a software program to perform a specific task.